Beschreibung:

Dynamic Response of Linear Mechanical Systems: Modeling, Analysis and Simulation can be utilized for a variety of courses, including junior and senior-level vibration and linear mechanical analysis courses. The author connects, by means of a rigorous, yet intuitive approach, the theory of vibration with the more general theory of systems. The book features:

A seven-step modeling technique that helps structure the rather unstructured process of mechanical-system modeling

A system-theoretic approach to deriving the time response of the linear mathematical models of mechanical systems

The modal analysis and the time response of two-degree-of-freedom systems-the first step on the long way to the more elaborate study of multi-degree-of-freedom systems-using the Mohr circle

Simple, yet powerful simulation algorithms that exploit the linearity of the system for both single- and multi-degree-of-freedom systems

Examples and exercises that rely on modern computational toolboxes for both numerical and symbolic computations as well as a Solutions Manual for instructors, with complete solutions of a sample of end-of-chapter exercises

Chapters 3 and 7, on simulation, include in each "Exercises" section a set of miniprojects that require code-writing to implement the algorithms developed in these chaptersThe Modelling of Single-DOF Mechanical Systems.- Time Response of First- and Second-Order Dynamical Systems.- Simulation of Single-DOF Systems.- Modelling of Multi-DOF Mechanical Systems.- Vibration Analysis of Two-DOF Systems.- Vibration Analysis of n-DOF Systems.- Simulation of n-DOF Systems.- Vibration Analysis of Continuous Systems.From the book reviews:

"The book discusses the modeling, analysis, and simulation of mechanical systems from the point of view of their dynamic response. ... Each chapter contains many examples (very carefully selected) and ends with a set of exercises. For this reason the book may be used as a support material for lecture courses as well. ... The book is very useful for mechanical engineering students of all levels from undergraduate to PhD." (Nicolae-Doru Stanescu, International Journal of Acoustics and Vibration, Vol. 18 (4), 2013)

"This book provides classical principles and modern methods of analysis, modelling and simulation of linear mechanical systems. ... the book is very useful and can be recommended to students, postgraduate students and engineers." (Yuri N. Sankin, Zentralblatt MATH, Vol. 1243, 2012)1

Klappentext

Dynamic Response of Linear Mechanical Systems: Modeling, Analysis and Simulation can be utilized for a variety of courses, including junior and senior-level vibration and linear mechanical analysis courses. The author connects, by means of a rigorous, yet intuitive approach, the theory of vibration with the more general theory of systems. The book features:A seven-step modeling technique that helps structure the rather unstructured process of mechanical-system modelingA system-theoretic approach to deriving the time response of the linear mathematical models of mechanical systemsThe modal analysis and the time response of two-degree-of-freedom systems-the first step on the long way to the more elaborate study of multi-degree-of-freedom systems-using the Mohr circleSimple, yet powerful simulation algorithms that exploit the linearity of the system for both single- and multi-degree-of-freedom systemsExamples and exercises that rely on modern computational toolboxes for both numerical and symbolic computations as well as a Solutions Manual for instructors, with complete solutions of a sample of end-of-chapter exercisesChapters 3 and 7, on simulation, include in each "Exercises" section a set of miniprojects that require code-writing to implement the algorithms developed in these chapters

Includes examples and exercises for students as well as a solution manual for instructors

Supplemented with Maple(TM) worksheets that illustrate the use of the Mohr circle in the derivation of the time-response of undamped two-dof systems

Uses a rigorous approach to the teaching of vibration and mechanical-system analysis